TY  - CHAP
A1  - Weyland, Michael
A1  - Pallast, Gregor
A1  - Tiberius, Victor
ED  - Brahm, Taiga
ED  - Iberer, Ulrich
ED  - Kärner, Tobias
ED  - Weyland, Michael
T1  - Ökonomisches Denken fördern durch kognitiv aktivierende Aufgaben
T2  - Ökonomisches Denken lehren und lernen
N2  - In diesem Beitrag möchten wir einen Gedanken des amerikanischen Mathematikers Paul Halmos aufgreifen und konkretisieren. Wir möchten verdeutlichen, dass ökonomisches  Denken  nicht  abstrakt  gelehrt,  sondern  „erfahren“  werden  muss,  wenn  es nachhaltig  und  in  seiner  ganzen  Breite  gefördert  werden  soll.  Dazu  dienen  kognitiv aktivierende Aufgaben. Was man darunter versteht und welche Funktionen und Qualitätsmerkmale Aufgaben in der ökonomischen Bildung besitzen, verdeutlichen wir in den  Abschnitten 1  und 2.  Im  Praxisteil  (Abschnitte 3  bis 8)  werden  konkrete,  unterrichtlich erprobte Beispielaufgaben vorgestellt, mit denen ökonomisches Denken erfolgreich gefördert werden kann. Unser Beitrag schließt mit einer kurzen Skizze wirtschaftsdidaktischer Implikationen (Abschnitt 9).
N2  - In  this  chapter,  we  refer  to  the  American  mathematician  Paul  Halmos’  notion  that economic thinking cannot be taught in an abstract way but has to be “experienced” so that it can be facilitated in a sustainable and broad way. This can be accomplished with cognitively activating tasks. In sections 1 and 2, we define these and explain their functions and quality requirements for economic education. In the practice sections 3 to 8, we  show specific  exemplary  tasks,  which  have  been  successfully  tested  in  classes  tofoster economic thinking. The chapter concludes with implications for economic education.
KW  - Ökonomische Bildung
KW  - kognitive Aktivierung
KW  - Lernaufgaben
KW  - ökonomische Experimente
KW  - Verhaltensökonomie
KW  - Umweltökonomie
KW  - economic education
KW  - cognitive activation
KW  - tasks
KW  - classroom experiments
KW  - behavioral economics
KW  - environmental economics
Y1  - 2022
UR  - https://elibrary.utb.de/doi/book/10.3278/9783763973088
SN  - 978-3-7639-7048-3
SN  - 978-3-7639-7308-8
U6  - https://doi.org/10.3278/9783763973088_25
SP  - 26
EP  - 48
PB  - wbv
CY  - Bielefeld
ER  - 
TY  - JOUR
A1  - Merfort, Leon
A1  - Bauer, Nico
A1  - Humpenöder, Florian
A1  - Klein, David
A1  - Strefler, Jessica
A1  - Popp, Alexander
A1  - Luderer, Gunnar
A1  - Kriegler, Elmar
T1  - Bioenergy-induced land-use-change emissions with sectorally fragmented policies
JF  - Nature climate change
N2  - Controlling bioenergy-induced land-use-change emissions is key to exploiting bioenergy for climate change mitigation. However, the effect of different land-use and energy sector policies on specific bioenergy emissions has not been studied so far. Using the global integrated assessment model REMIND-MAgPIE, we derive a biofuel emission factor (EF) for different policy frameworks. We find that a uniform price on emissions from both sectors keeps biofuel emissions at 12 kg CO2 GJ−1. However, without land-use regulation, the EF increases substantially (64 kg CO2 GJ−1 over 80 years, 92 kg CO2 GJ−1 over 30 years). We also find that comprehensive coverage (>90%) of carbon-rich land areas worldwide is key to containing land-use emissions. Pricing emissions indirectly on the level of bioenergy consumption reduces total emissions by cutting bioenergy demand but fails to reduce the average EF. In the absence of comprehensive and timely land-use regulation, bioenergy thus may contribute less to climate change mitigation than assumed previously.
KW  - agriculture
KW  - climate-change mitigation
KW  - energy policy
KW  - energy supply and demand
KW  - environmental economics
Y1  - 2023
U6  - https://doi.org/10.1038/s41558-023-01697-2
SN  - 1758-678X
SN  - 1758-6798
VL  - 13
IS  - 7
SP  - 685
EP  - 692
PB  - Nature Publ. Group
CY  - London
ER  - 
TY  - JOUR
A1  - Merfort, Leon
A1  - Bauer, Nico
A1  - Humpenöder, Florian
A1  - Klein, David
A1  - Strefler, Jessica
A1  - Popp, Alexander
A1  - Luderer, Gunnar
A1  - Kriegler, Elmar
T1  - State of global land regulation inadequate to control biofuel land-use-change emissions
JF  - Nature climate change
N2  - Under current land-use regulation, carbon dioxide emissions from biofuel production exceed those from fossil diesel combustion. Therefore, international agreements need to ensure the effective and globally comprehensive protection of natural land before modern bioenergy can effectively contribute to achieving carbon neutrality.
KW  - agriculture
KW  - climate-change mitigation
KW  - energy policy
KW  - energy supply and demand
KW  - environmental economics
Y1  - 2023
U6  - https://doi.org/10.1038/s41558-023-01711-7
SN  - 1758-678X
SN  - 1758-6798
VL  - 13
IS  - 7
SP  - 610
EP  - 612
PB  - Nature Publ. Group
CY  - London
ER  - 
TY  - JOUR
A1  - Bersalli, Germán
A1  - Tröndle, Tim
A1  - Lilliestam, Johan
T1  - Most industrialised countries have peaked carbon dioxide emissions during economic crises through strengthened structural change
JF  - Communications earth & environment
N2  - As the climate targets tighten and countries are impacted by several crises, understanding how and under which conditions carbon dioxide emissions peak and start declining is gaining importance. We assess the timing of emissions peaks in all major emitters (1965–2019) and the extent to which past economic crises have impacted structural drivers of emissions contributing to emission peaks. We show that in 26 of 28 countries that have peaked emissions, the peak occurred just before or during a recession through the combined effect of lower economic growth (1.5 median percentage points per year) and decreasing energy and/or carbon intensity (0.7) during and after the crisis. In peak-and-decline countries, crises have typically magnified pre-existing improvements in structural change. In non-peaking countries, economic growth was less affected, and structural change effects were weaker or increased emissions. Crises do not automatically trigger peaks but may strengthen ongoing decarbonisation trends through several mechanisms.
KW  - climate-change mitigation
KW  - economics
KW  - environmental economics
KW  - environmental studies
Y1  - 2023
U6  - https://doi.org/10.1038/s43247-023-00687-8
SN  - 2662-4435
VL  - 4
IS  - 1
SP  - 44
EP  - 44
PB  - Springer Nature
CY  - London
ER  -